Dr Pierre Masselot
Assistant Professor
麻豆传媒
15-17 Tavistock Place
London
WC1H 9 SH
United Kingdom
I am a statistician and environmental epidemiologist interested in the association between various environmental exposure and human health, as well as methodological and software development.
My research focus on the effect on health of temperature and the role played by climate change in this association, as well as the effect of various air pollutants and atmospheric composition. I also propose new methodological developments for environmental epidemiology such as constrained and Machine Learning methods to estimate health impacts in low-population settings, develop environmental health indices or assess differences in vulnerability between populations.
I also teach R programming and Machine Learning at LSHTM.
My research focus on the effect on health of temperature and the role played by climate change in this association, as well as the effect of various air pollutants and atmospheric composition. I also propose new methodological developments for environmental epidemiology such as constrained and Machine Learning methods to estimate health impacts in low-population settings, develop environmental health indices or assess differences in vulnerability between populations.
I also teach R programming and Machine Learning at LSHTM.
Affiliations
Department of Public Health, Environments and Society
Faculty of Public Health and Policy
Teaching
I am co-Module organiser and Lecturer of the Machine Learning module (2490) taught in the Health Data Science MSc. I also tutor and teach in the R programming and Introduction to Statistical Computing modules.
Research
My research interests are twofold: i) accurately assessing the association and impact of environmental stressors on human health, and ii) developing appropriate methodologies for doing so.
My research have primilarily focused on estimating temperature-related mortality in various settings, including the Qu茅bec province in Canada and cities in Europe. It includes large health impact assessment of non-optimal temperatures, developing climate indicators and thresholds for early warning systems and projections in futures climate. I also works on estimating how various local characteristics affect the vulnerability to temperature. Similarly, I work on estimating how atmospheric composition affects the vulnerability to air pollution in cities.
My main methodological focus is on constrained estimation, with the objective to create health indicators and improve estimations of the association between health and environmental stressors in low power settings.
My research have primilarily focused on estimating temperature-related mortality in various settings, including the Qu茅bec province in Canada and cities in Europe. It includes large health impact assessment of non-optimal temperatures, developing climate indicators and thresholds for early warning systems and projections in futures climate. I also works on estimating how various local characteristics affect the vulnerability to temperature. Similarly, I work on estimating how atmospheric composition affects the vulnerability to air pollution in cities.
My main methodological focus is on constrained estimation, with the objective to create health indicators and improve estimations of the association between health and environmental stressors in low power settings.
Research Area
Statistical methods
Environmental Health
Climate change
Epidemiology
Disease and Health Conditions
Cardiovascular diseases
Respiratory diseases
Country
Canada
United Kingdom
Italy
Germany
Greece
France
Spain
Brazil
Norway
Region
European Union
North America
World
Selected Publications
2023
The Lancet Planetary Health
2023
Environmental health perspectives
2023
Lancet
2022
The Lancet Planetary health
2022
Biostatistics
2022
Environmental Epidemiology
2022
Epidemiology
2022
Scientific reports
2021
Journal of the Royal Statistical Society: Series A (Statistics in Society)
2024
Cities